// ***************************************************************************** // * This file is part of the FreeFileSync project. It is distributed under * // * GNU General Public License: http://www.gnu.org/licenses/gpl-3.0 * // * Copyright (C) Zenju (zenju AT freefilesync DOT org) - All Rights Reserved * // ***************************************************************************** #ifndef CVRT_TEXT_H_018727339083427097434 #define CVRT_TEXT_H_018727339083427097434 #include #include namespace zen { /** \file \brief Handle conversion of string-convertible types to and from std::string. It is \b not required to call these functions directly. They are implicitly used by zen::XmlElement::getValue(), zen::XmlElement::setValue(), zen::XmlElement::getAttribute() and zen::XmlElement::setAttribute(). \n\n Conversions for the following user types are supported by default: - strings - std::string, std::wstring, char*, wchar_t*, char, wchar_t, ect..., all STL-compatible-string-classes - numbers - int, double, float, bool, long, ect..., all built-in numbers - STL containers - std::map, std::set, std::vector, std::list, ect..., all STL-compatible-containers - std::pair You can add support for additional types via template specialization. \n\n Specialize zen::readStruc() and zen::writeStruc() to enable conversion from structured user types to XML elements. Specialize zen::readText() and zen::writeText() to enable conversion from string-convertible user types to std::string. Prefer latter if possible since it does not only enable conversions from XML elements to user data, but also from and to XML attributes. \n\n Example: type "bool" \code namespace zen { template <> inline void writeText(const bool& value, std::string& output) { output = value ? "true" : "false"; } template <> inline bool readText(const std::string& input, bool& value) { const std::string tmp = trimCpy(input); if (tmp == "true") value = true; else if (tmp == "false") value = false; else return false; return true; } } \endcode */ ///Convert text to user data - used by XML elements and attributes /** \param input Input text. \param value Conversion target value. \return "true" if value was read successfully. */ template bool readText(const std::string& input, T& value); ///Convert user data into text - used by XML elements and attributes /** \param value The value to be converted. \param output Output text. */ template void writeText(const T& value, std::string& output); /* Different classes of data types: ----------------------------- | structured | readStruc/writeStruc - e.g. string-convertible types, STL containers, std::pair, structured user types | ------------------------- | | | to-string-convertible | | readText/writeText - e.g. string-like types, all built-in arithmetic numbers, bool | | --------------- | | | | | string-like | | | utfTo - e.g. std::string, wchar_t*, char[], wchar_t, wxString, MyStringClass, ... | | --------------- | | | ------------------------- | ----------------------------- */ //------------------------------ implementation ------------------------------------- //Conversion from arbitrary types to text (for use with XML elements and attributes) enum TextType { TEXT_TYPE_BOOL, TEXT_TYPE_NUMBER, TEXT_TYPE_STRING, TEXT_TYPE_OTHER, }; template struct GetTextType : StaticEnum::value ? TEXT_TYPE_BOOL : IsStringLike::value ? TEXT_TYPE_STRING : //string before number to correctly handle char/wchar_t -> this was an issue with Loki only! IsArithmetic::value ? TEXT_TYPE_NUMBER : // TEXT_TYPE_OTHER> {}; //###################################################################################### template struct ConvertText; /* -> expected interface { void writeText(const T& value, std::string& output) const; bool readText(const std::string& input, T& value) const; }; */ //partial specialization: type bool template struct ConvertText { void writeText(bool value, std::string& output) const { output = value ? "true" : "false"; } bool readText(const std::string& input, bool& value) const { const std::string tmp = trimCpy(input); if (tmp == "true") value = true; else if (tmp == "false") value = false; else return false; return true; } }; //partial specialization: handle conversion for all built-in arithmetic types! template struct ConvertText { void writeText(const T& value, std::string& output) const { output = numberTo(value); } bool readText(const std::string& input, T& value) const { value = stringTo(input); return true; } }; //partial specialization: handle conversion for all string-like types! template struct ConvertText { void writeText(const T& value, std::string& output) const { output = utfTo(value); } bool readText(const std::string& input, T& value) const { value = utfTo(input); return true; } }; //partial specialization: unknown type template struct ConvertText { //########################################################################################################################################### static_assert(sizeof(T) == -1, ""); /* ATTENTION: The data type T is yet unknown to the zen::Xml framework! Please provide a specialization for T of the following two functions in order to handle conversions to XML elements and attributes template <> void zen::writeText(const T& value, std::string& output) template <> bool zen::readText(const std::string& input, T& value) If T is structured and cannot be converted to a text representation specialize these two functions to allow at least for conversions to XML elements: template <> void zen::writeStruc(const T& value, XmlElement& output) template <> bool zen::readStruc(const XmlElement& input, T& value) */ //########################################################################################################################################### }; template inline void writeText(const T& value, std::string& output) { ConvertText::value>().writeText(value, output); } template inline bool readText(const std::string& input, T& value) { return ConvertText::value>().readText(input, value); } } #endif //CVRT_TEXT_H_018727339083427097434